DE3439559A1 - Self-supporting structural element - Google Patents

Abstract

The invention relates to a self-supporting structural element, consisting of a rigid foam, for structural installations.

Description

Description Self-supporting building element The invention relates to a Self-supporting construction element, especially for prefabricated construction.

It has been customary for a long time to exclusively use structures or to erect with the help of prefabricated components. The usage of prefabricated structural elements is common in both building construction and civil engineering. Various systems of components have developed here.

On the one hand, there are prefabricated parts made of reinforced concrete that are produced in precast factories are created and then transported to the construction site for assembly. These prefabricated parts achieve their strength through incorporated steel mats, steel frames, Tie rods or the like. You have to be relatively in highly industrialized countries strongly enforced. However, in third world countries they are, if at all, then only to be found in metropolitan areas. This is due to the fact that for one, the transport routes from the prefabricated parts plant to the assembly point are often relatively long are, and also have poor road conditions.

Furthermore, there is often insufficient local in third world countries Cement production, factories for the production of steel mesh and other amier irons, as well as one qualitatively sufficient preparation of the aggregates to be found. This leads to the fact that in these countries mostly prefabricated construction is dispensed with and conventional construction methods are used.

Furthermore, precast concrete elements naturally have a poor thermal insulation effect. For this reason, buildings, for example, have curtain walls in between arranged mineral mats are thermally insulated. There are also precast concrete parts in sandwich construction and at least one insulating layer. Another disadvantage is the high dead weight compared to the actual load-bearing capacity.

It is also known prefabricated components, especially for the Building construction made of steel or wooden frames, paneled with plasterboard or wooden panels and are filled with thermal insulation. These pre-made Components are relatively light and have good thermal insulation. Your manufacture however, it is relatively complex. These components achieve their load-bearing capacity the skeletal frame.

It is also known the cavities of hollow blocks with a Isolation material, mostly polystyrene to be filled in. This makes the bad Thermal insulation of the hollow blocks improved. The ones lying between the cavities However, bars act as thermal bridges, so that this is not a satisfactory one Result leads. Furthermore, modules with an opposing structure are known, i.e. the hollow block "stone" consists of a rigid foam, usually polystyrene and the cavities are reinforced with reinforcement and with concrete to achieve strength poured out. This method does achieve good thermal insulation, but has the disadvantage that the simple pouring with concrete does not lead to any reliable predictability Strength leads, since the use of vibrators, in particular vibrating pears to a mechanical damage or even destruction of the polystyrene can lead. In the Construction work is thus only trusted that the poured Concrete fills all cavities.

The present invention is based on the object of a self-supporting To create component that while avoiding the shortcomings of the known Components are easy to manufacture, light and have good heat / cold insulation having.

According to the invention, this object is achieved with a component according to the preamble of claim 1 solved by the characterizing part of claim 1.

By using rigid foam, you can easily self-supporting Components are produced which, with a modular structure, become structural systems of various kinds (especially for the construction of buildings) can be put together. A In this case, m3 of rigid foam preferably weighs 28 kg. In contrast, one m3 weighs Reinforced concrete 2.2 t. The strong reduction in its own weight means that the entire structural system primarily with regard to environmental pollution (e.g. wind and Snow loads) and not with regard to the bearing of the dead weight got to. By applying a coating, in particular made of fiber-reinforced Materials, the rigid foam receives an armor-like surface that protects it from mechanical Stress and damage caused by environmental influences (e.g. UV radiation) Self-supporting components thus have the advantages that they - one for small Spans have sufficient load-bearing capacity - through additional stabilizing parts can be added in special cases, - a high insulation capacity against heat / cold have, - have a hard surface, - easy and simple to build structures, in particular house units can be assembled, - earthquake resistance own, - and with low investment costs, - from the truck in field factories in short Timing cycles can be established and - through subsequent personal contribution of the residents are to be improved.

In principle, all known rigid foams, in particular made from expandable polystyrene, polyurethane, polyethylene for the production of such self-supporting Components suitable. However, expandable polystyrene (EPS) has been chosen for that here The claims made proved to be the most suitable. Expandable polystyrene shows in particular the following for the area of application at hand advantageous properties on: - the physiological tolerance is accordingly selected evaporation times guaranteed.

- The physical separation values correspond to the maximum requirements.

- The adjustability of the product weight enables different Sealing to achieve greater compressive strength.

- The malleability of the material is given in tools that are in mobile systems can be used.

- The finished molded parts only absorb the smallest amounts of water.

- The development of flame retardant equipment that has taken place in the meantime can, if necessary, provide flame retardancy according to DIN 4102 class B1.

- The long-term behavior of products made from expandable polystyrene has advantageous properties, in particular a memory effect.

- The permanent fixed connection of parts made of expandable polystyrene is easy to do with glue or staples.

- The assembly by joining components is uncomplicated and favored by the light part weight.

- The supplementary combination with statically required special parts (e.g. ring anchor) can be provided.

- The variety of shapes and shape properties are more capable of addition through development Elements reachable.

- A post-treatment of the finished systems and a subsequent one Improvements to the expansion are possible.

- Secondary elements (windows, doors) can be easily installed.

The wall surface is counteracted by a fiber-reinforced hard coating Impact, insects, mice, rats and fire protected. For the fiber reinforcement Both natural fiber products such as coconut fibers, sisal fibers, or jute are suitable the like, as well as industrially manufactured products such as glass fibers, synthetic fibers or similar. In particular for components that have to fulfill roof functions, the hard coating can have a smooth hard surface with dirt and water repellent Exhibit quality.

The coating can be inserted fibers or fiber mats or ribbons exhibit. Furthermore, the components can also have a plastic plaster or the like.

Other advantages, features and uses of the present Invention emerge from the following preparation examples in conjunction with the drawing.

These show: FIGS. 1 and 2 a field color system, FIG. 3 a vertical one Cross section through a building Fig. 4 shows a horizontal cross section through a building Fig. 5 is a front view of an archway; FIGS. 6 and 7 are a horizontal cross-section on a combination of different buildings.

Fig. 1 shows a front view and Fig. 2 shows a plan view of a Field factory. This field factory consists of a first truck 1 and a second truck 2. On the first truck 1, all necessary for the production of the components are Aggregates built; when using expandable polystyrene, the material becomes advantageously pre-expanded to a volume of 96% of the final volume in the molds filled in and then fully foamed. Everyone is on the second truck assemblies required for surface coating. Both trucks are connected to one another by a simple tent construction 3. On the first truck the components are manufactured and after an evaporation time by means of the units of the second truck subjected to a surface treatment. The components made of rigid foam are so light that they can be carried by hand by either one or two people can be transported or at least transported via a simple trolley construction 4 can be. In particular, what is otherwise required for the precast concrete parts heavy mobile cranes can be dispensed with. When the truck has the required off-road mobility field factories can also be used in inaccessible areas will. The raw material to be transported to the field factory has only one volume of 2.5% (one fortieth) of the finished component.

An energy supply is also required (not shown). This energy supply system comprises in particular: a power supply - a steam generation - a water treatment - a compressed air generation and - a Cooling water recooling For this purpose, a third truck (not shown) can act as a supply vehicle be provided with the necessary aggregates. (In the case of stationary systems, these supply units, if available, are also taken from the factory network).

When using the appropriate components for building houses, the The subsoil should be level and should cover an area of 20 to 30 cm deep in one Allow edge area of 120 cm width.

Fig. 3 shows a structure of one of the components according to the invention igloo-like building created. Base parts 5 are used in the excavation and glued together. After moving and gluing the base parts the excavation filled in again and leveled. The weight of the earth weighed down with approx. 400 kg / m2 the edge strips of the base parts to a usually sufficient extent. Simultaneously the construction element pulled under the floor prevents the penetration of heat or Cold from outside.

Storm resistance can be achieved with additional ground anchors (not shown) be achieved. The roof moldings 6 are designed so that each two parts on the Separate outer walls, support each other or, in the case of a dome, form on one stretched light form framework are supported.

The parts are glued and / or clamped together.

A wall thickness of 14 to 20 cm has proven for the base parts 5 as proved particularly advantageous. On the one hand, this wall thickness enables an optimal Working in the mold, on the other hand, such parts have an optimal heat / cold insulation and favorable load-bearing strengths.

A reduction of the molded parts to triangular or rectangular shapes enables the greatest possible combination of similar components to the most varied structural systems.

From Fig. 4 it can be clearly seen that in these embodiments the building of essentially triangular roof elements 6 or trapezoidal roof elements assembled with keystone and rectangular base elements 5, i.e. glued and / or bracketed. A subsequent joint covering or an overall coating on the finished building is possible. Paints are not required, they can but can be applied to the wall surfaces afterwards. A subsequent floor covering can be chosen according to local conditions. With appropriate advance planning For installation requirements, empty pipes or slots can be inserted into the molded parts leave out. Repairs to the walls in the event of subsequent violent damage are included Repair mortar easy to apply.

Fig. 5 shows a front view of an archway. The archway exists from bases 7 and a bow 8. The bases 7 can also be made of conventional building materials, for example, bricks or concrete can be produced. The archway 8 is made in one piece or made of several parts according to the present invention. Through this Ornaments 9 can be incorporated in an advantageous manner, so that the archway looks like a stone carving. Possible mechanical damage, For example, when a vehicle starts up, the base 7 is received. The actual archway 8 thus only serves to create a visual impression.

It is obvious that according to this inventive method not only archways, but also other larger or smaller structures, For example, tombstones, monuments or the like. Can be made. The usage the Components according to the invention for this purpose has the advantage that no complex foundations have to be built because the weight of the component is so low that it, for example, in contrast to granite tombstones, does not go into the ground on one side sink in and thus reach a lean angle. Grave markings or the like. can be attached in a simple manner to the components according to the invention.

Fig. 6 shows a horizontal cross-section from a building which composed of two buildings according to the type described in FIGS is.

Fig. 7 shows a horizontal cross-section through a building which from three building parts according to the one shown in Fig.

3 and 4 shown type is put together. In this embodiment is the building as a construction worker accommodation, consisting of two sleeping cells 10 and 10 'and a living cell 11. Such housing for construction workers are suitable e.g. also for large construction sites in colder regions (dam construction in high mountains, Oil fields in tundras etc.).

The possibility of application is in no way limited to the cases described and third world countries restricted e.g. B.

as immediate measures after earthquake disasters. In particular, can with such components also via stationary factories, weekend houses, kiosks and other structures are erected. Furthermore, the system described is also suitable for the production of components that are supposed to make a bulky impression, but only have to take on minor strength tasks. For example film structures, garden walls, etc. can also be created using this method. With the latter A combination with conventional construction methods (concrete or brick construction) is also possible. For example, the base can be built using conventional brick construction and only the wall can be a component according to the invention.

Furthermore, the components according to the invention can also be individual Have surface structures, so that an optical adaptation to a specific Construction style is possible.

Claims (5)

Claims 1. Self-supporting building element for structures, characterized in that that it consists of a rigid foam. 2. Self-supporting building element according to Claim 1, characterized in that that the rigid foam is an expandable polystyrene. 3. Self-supporting building element according to Claim 1, characterized in that that the rigid foam is a polyurethane foam. 4th Self-supporting component according to one or more of the claims 1 to 3, characterized in that it is a fiber-reinforced hard surface coating having. 5. Self-supporting building element according to Claim 4, characterized in that that for fiber reinforcement coconut fibers, sisal fibers, jute, silk, glass fibers or Synthetic fibers used, grd "